KR100253191B1 - Apparatus for eliminating stray and spot of tv - Google Patents

Abstract

PURPOSE: An apparatus for removing a stray and a spot of a TV receiver is provided to remove a stray and a spot phenomenon by preserving an R,G,B signal output value and an operation of a deflection unit for a designated time. CONSTITUTION: A microcomputer(100) outputs a control signal and controls a whole system. A power source unit(110) supplies a suitable power source to a system in accordance with a control signal from the microcomputer(100). A delay unit(120) comprises a resistance(R2), a diode(D3) and a condenser(C3) and delays a deflection power source(B2) from the power source unit(110). A color demodulation/deflection processing unit(130) receives a color demodulation power source(B3) and a deflection power source(B2) and outputs demodulation signals(R,G,B) with demodulating a carrier color signal. The color demodulation/deflection processing unit(130) also outputs a vertical, horizontal driving signals(VD,HD). A stray removing unit(140) outputs a demodulation signal in case a power is on and an appointed signal corresponding the demodulation signal in case a power is off. A CPT driving unit(150) amplifies an output signal from the stray removing unit(140). A CPT(160) reproduces a color image with deflection driving signals from the color demodulation/deflection processing unit(130). A deflection unit(170) controls a deflection. A flyback transformer(180) receives a B+ power source from the power source unit(110), converts an output signal from the deflection unit(170) into a specific power source, and approves the specific power source as a power source voltage(B4) to the CPT driving unit(150).

Description

Stray and spot removal device of TV receiver

The present invention relates to a stray and spot removing apparatus of a TV receiver. In particular, the present invention relates to a TV receiver suitable for removing stray and spot phenomena by maintaining the RGB signal and the deflection signal for a predetermined time when the power is turned off. It relates to a stray and spot removing device.

When the power is turned off in the primary color signal-driven TV receiver, the beam current of the Citi Drive unit is rapidly reduced, thereby losing the opportunity to discharge the Cititi's residual anode high voltage, which causes a stray phenomenon on the screen.

When the power is turned off, the deflection part also stops abruptly, and a spot phenomenon appears as the beam is collected in the center for a certain time.

1 is a diagram of a device for removing a stray of a conventional TV receiver, and a microcomputer 10 for overall control of the system as shown therein; A power supply unit 20 for supplying powers B1-B4 and B + suitable for the system according to the control signal of the microcomputer 10; It is driven according to the supply power (B2, B3) of the power supply unit 20 to demodulate the carrier color signal input through a series of processes to output a color demodulation signal and output vertical and horizontal drive signals (VD, HD) A color demodulation / deflection processing unit 30 (VIDEO COLOR DEFLECTION: VCD); A city driving unit 40 for amplifying and outputting the output demodulation signal of the color demodulation / deflection processing unit 30; A Citi 50 to receive the output R.G.B signal of the Citi Drive driver 40 to reproduce a color image; A deflection unit 60 which receives a deflection driving signal from the color demodulation / deflection processing unit 30 and controls deflection; The B + power is supplied from the power supply unit 20, and the output signal of the horizontal output unit 70 generated during the return period is converted into a predetermined power source and applied to the CFT driver 40 as the power voltage B4. A flyback transpomo 70 (FBT) which is boosted to high pressure and applied to the anode of the Citi 50; Consists of a resistor (R2) and a capacitor (C3) is composed of a high-pressure discharge portion 80 to discharge the high pressure of the Citi 50 when the power off.

The deflection unit 60 includes a vertical output unit 61 which receives a driving signal VD from the color demodulation / deflection processing unit 30 and applies a deflection current to the vertical deflection coil; A horizontal output unit 62 receives a driving signal HD from the color demodulation / deflection processor 30 and applies a deflection current to the horizontal deflection coil.

The operation of the conventional apparatus configured as described above will be described with reference to the accompanying drawings.

First, when the power is turned on, the microcomputer 10 drives the power supply unit 20 to supply the power required for each part of the system.

The color demodulation / deflection unit, which has received the deflection power source B2 and the color demodulation power source B3 from the power supply unit 20, demodulates the carrier color signal input through a predetermined process and outputs a demodulation signal RGB and is vertical. The drive signals VD and HD of the horizontal output units 61 and 62 are output.

The CFP driver 40 receiving the demodulation signal R.G.B of the color demodulation / deflection processing unit 30 amplifies it and applies it to the CFP 50.

The Citi 50, which receives the output signal (-R.-G.-B) of the Citidrive driver 40, reproduces the corresponding color image.

In this case, the vertical and horizontal output units 61 and 62 are driven according to the output signals VD and HD of the color demodulation / deflection processor 30 to output vertical and horizontal deflection currents to the Citi 50. Control the deflection

Meanwhile, the flyback transpomo 70 (FBT) receiving the DC power source B + from the power supply unit 20 converts the output pulse voltage of the horizontal output unit 62 generated during the return period into a predetermined voltage. At the same time as the power supply voltage (B4) to the Citi drive driver 40 is converted to a high voltage is applied to the anode of the Citi 50.

When the power is turned off during the operation, the microcomputer 10 drops the power control signal PTL to 'low' as shown in FIG. 2A, which causes the power supply unit 20 to be in a standby state. do.

As described above, when the power supply unit 20 is in the standby state, power B2 and B3 applied to the color demodulation / deflection processing unit 30 simultaneously drop as shown in FIG. 2B. When the deflection power source B2 falls below the threshold voltage Vth of the color demodulation / deflection unit, the vertical and horizontal output units 61 and 62 which are driven by receiving the input of the deflection power source B2 are stopped.

Accordingly, the deflection output is turned off as shown in FIG.

When the color demodulation power source B3 drops, the demodulation signal R.G.B, which is an output signal of the color demodulation / deflection processing unit 30, gradually drops to 0 level as shown in FIG. This means that the beam current level of the Citi 50 is reduced.

In addition, the operation of the flyback transformer 70 (FBT) is also stopped, so that the power supply voltage B4 applied to the safety driver 40 is also lowered to output the R-G.-B signal of the safety driver 40. Also drops.

Meanwhile, when the power is turned off, the high voltage B5 applied to the Citi 50 is discharged. Looking at the discharge loop, as shown in FIG. 3, the B + power output from the power supply unit 20 is a flyback transpomo 70. (FBT) and the anode end of the CFT 50, the electron beam line and the CFT drive unit 40 flows to the ground side.

For example, when the transistor amplifying the R signal in the CAPI drive unit 40 and outputting the -R signal is Q1, when the power is turned off, the output -R signal of the CFT drive unit 40 is dropped to thereby reduce the transistor Q1. The discharge current amount of the high pressure B5 flowing through is rapidly reduced as shown in FIG.

As a result, the high pressure formed between the anode side and the ground of the Citi 50 is discharged through the high voltage discharge unit 80.

In addition, since the vertical and horizontal output units 61 and 62 are also suddenly stopped, the spot phenomenon appears as the beams are gathered in the center continuously for a predetermined time.

At this time, the power source B4 applied to the Citi drive unit 40 is slowly discharged as shown in (d) of FIG.

In order to prevent spot phenomenon, screen muting is used to make the screen black.

As described above, the conventional apparatus has a problem in that a high pressure discharge does not occur even when the power is turned off, resulting in a stray phenomenon, and a spot phenomenon occurs in which a deflection portion suddenly stops and a beam is gathered in the center for a predetermined time.

An object of the present invention is to eliminate the stray and spot of the TV receiver to remove the stray phenomenon and spot phenomenon by forcing the RGB signal output value and the deflection unit to maintain a constant time when the power off to solve this conventional problem. To provide a device.

1 is a conventional apparatus for removing a stray of a TV.

FIG. 2 is a diagram of each sub output waveform in FIG. 1; FIG.

3 is a diagram showing a high-pressure discharge loop in FIG.

Figure 4 is an embodiment of the present invention.

FIG. 5 is a diagram of respective sub output waveforms in FIG. 4; FIG.

***** Description of the symbols for the main parts of the drawings *****

100: microcomputer 110: power unit

120: delay unit 130: color demodulation / deflection processing unit

140: stray remover 150: Citi drive unit

160: Citi 170 170: deflection unit

171: vertical output unit 172: horizontal output unit

180: flyback transfosmo

The apparatus for removing stray and spot of a TV receiver for achieving the object of the present invention includes a microcomputer for totally controlling the system such as outputting a control signal for forcibly maintaining a demodulation signal when the power is turned off; A power supply unit supplying power suitable for the system according to a control signal of the microcomputer for forcibly maintaining the demodulation signal; A delay unit for delaying and outputting the deflection power from the power supply unit for a predetermined time; A color demodulation / deflection processing unit which receives a deflection power source and a color demodulation power source from the power supply unit and drives the demodulated signal to demodulate the output color signal and output a deflection drive signal; A stray removing unit for outputting a demodulation signal of the color demodulation / deflection processing unit when the power is on, and outputting a predetermined signal corresponding to the demodulation signal according to a control signal of the microcomputer when the power is off; A city driving unit for amplifying and outputting the output signal of the stray removing unit; A Citity for receiving an output signal of the Citidrive driver to reproduce a color image; A deflection unit configured to control a deflection by receiving a deflection driving signal from the color demodulation / deflection processing unit; A flyback that receives the B + power from the power supply unit, converts the output signal of the deflection unit generated during the return period into a predetermined power supply, applies the power supply voltage to the safety driving unit, and boosts the voltage to a high voltage at the same time. It consists of a transformo.

Hereinafter, the operation and effects of the present invention will be described with reference to one embodiment.

4 is an exemplary embodiment of the present invention. As shown in FIG. 4, the microcomputer 100 collectively controls the system such as outputting a control signal CST for outputting a predetermined signal corresponding to a demodulation signal when the power is turned off. Wow; A power supply unit 110 for supplying powers B1-B3 and B + suitable for a system according to a control signal of the microcomputer 100; A delay unit 120 including a resistor R2, a diode D3, and a capacitor C3 for delaying and applying a deflection power B2 from the power supply unit 110 for a predetermined time; The deflection power source B2 is received from the power source unit 110 through the color demodulation power source B3 and the delay unit 120 and driven accordingly to demodulate the carrier color signal inputted through a series of processes to demodulate the demodulation signal RGB. And a color demodulation / deflection processor 130 (VIDEO COLOR DEFLECTION: VCD) for outputting horizontal and vertical driving signals VD and HD. The demodulation signal of the color demodulation / deflection processing unit 130 is output when the power is on, and the predetermined signal R corresponding to the demodulation signal RGB according to the control signal CST of the microcomputer 100 when the power is off. A stray remover 140 for outputting `, G`, B`); A city driving unit 150 for amplifying and outputting the output signal of the stray removing unit 140; A Citi 160 which receives the output -R.-G.-B signal of the Citi Drive unit 150 and reproduces a color image; A deflection unit 170 which receives deflection driving signals VD and HD from the color demodulation / deflection processing unit 130 and controls deflection; When the B + power is applied from the power supply unit 110, the output signal of the deflection unit 170 generated during the return period is converted into a predetermined power supply, and the high voltage is applied to the safety driver 150 as the power supply voltage B4. It is composed of a flyback transformer (180) (FBT) to be boosted to apply to the anode of the Citi 160.

The stray remover 140 includes a transistor Q2 that is turned on / off according to the demodulation signal of the color demodulation / deflection processing unit 130 and outputs a signal according thereto; Resistors R2 and R3 for dividing the output signal of the transistor Q2 to a predetermined voltage; When the power is off, the signal R corresponding to the demodulation signal R by being turned on / off according to the control signal CST of the microcomputer 100 and applying the standby power supply B1 to the output terminal of the transistor Q2. It consists of a transistor Q3 output to `).

The deflection unit 170 includes a vertical output unit 171 which receives a driving signal VD from the color demodulation / deflection processing unit 130 and applies a deflection current to the vertical deflection coil; A horizontal output unit 172 receives the driving signal HD from the color demodulation / deflection processing unit 130 and applies a deflection current to the horizontal deflection coil.

Looking at the operation of an embodiment of the present invention configured as described above are as follows.

The stray removing unit 140 is configured to correspond to each of the demodulation signals R.G.B of the color demodulation / deflection processing unit 130. That is, there are three stray removers 141-143. Since each of the stray removers 141 to 143 has the same operation, only one stray remover 141 is described in the present invention by way of example.

First, the operation in the normal operation is the same as in the prior art. Therefore, description will be given by taking an example of power off.

When the power is turned off, the microcomputer 100 applies the power control signal PTL to the power supply unit 110 in a low state, as shown in FIG.

Accordingly, each part of the system is in a stop state. At this time, the power supply unit 110 applies the standby power to the microcomputer 100 and also to the stray removing unit 141.

The microcomputer 100 outputs a control signal CST having a 'high' level to the stray removing unit 141 for a predetermined time t3, as shown in FIG. Is applied to the base.

As a result, the transistor Q3 is turned on to output the standby power source B1 of the power supply unit 110, which is output by the transistor Q2 as shown in FIG. The signal R ′ corresponding to the signal is applied to the CIT drive unit 150.

At this time, since the driving of the color demodulation / deflection processing unit 130 is stopped, the demodulation signal R does not appear as shown in FIG.

The other two stray removers 141 and 142 operate in the same manner, and output G and B signals, respectively.

In this way, the standby power source B1 is applied to the CIT drive unit 150 through the stray remover 141, so that the CIT drive unit 150 has a beam current, i.e., a -R.-G.-B signal for a predetermined time t3. Outputs

As a result, the high pressure B5 remaining in the Citi 160 is discharged for a predetermined time t3 through the Citidrive driver 150 even after the power is turned off.

As a result, almost all of the high pressure B5 remaining in the Citi 160 is discharged.

On the other hand, since the deflection power B2 applied to the color demodulation / deflection processing unit 130 is applied after a predetermined time t2 is delayed through the delay unit 120, the deflection power source for the predetermined time t2 even when the power is turned off. (B2) continues to be applied.

As a result, the color demodulation / deflection processing unit 130 outputs the driving signals VD and HD, and the vertical and horizontal output units 172 which receive the driving signals are driven to drive a predetermined time (as shown in FIG. 5C). Continue to control deflection during t2).

As a result, the DC voltage B + applied to the flyback transformo 180 (FBT) is drastically reduced as shown in FIG.

As described in detail above, the present invention can remove the stray and the spot phenomenon by using a device using a simple device, there is an effect that the cost is low.

Claims (4)

A microcomputer that collectively controls the system, such as outputting a control signal CST for forcibly maintaining a demodulation signal when the power is turned off; A power supply unit for supplying powers B1-B3 and B + suitable for the system according to the control signal PTL of the microcomputer; The deflection power source B2 and the color demodulation power source B3 are inputted from the power supply unit to be driven to demodulate the carrier color signal inputted through a series of processing to output a demodulation signal RGB and to generate the deflection drive signals VD and HD. A color demodulation / deflection processing unit for outputting; When the power is turned on, the demodulation signal RGB of the color demodulation / deflection processing unit is output. When the power is turned off, a predetermined signal corresponding to the demodulated signal RGB is determined according to the control signal CST of the microcomputer. A stray removing unit for outputting G.`B); A city driving unit for amplifying and outputting the output signal of the stray removing unit; A Citi for receiving the output signal (-R.-G.-B) of the Citi Drive unit to reproduce a color image; A deflection unit configured to control a deflection by receiving a deflection driving signal VD from the color demodulation / deflection processing unit; The B + power is supplied from the power supply unit, and the output signal of the deflection unit generated during the return period is converted into a predetermined power supply, and is applied to the CFP drive unit as the power supply voltage B4. Stray removal device of a TV receiver comprising a flyback transformer (FBT). 2. The apparatus of claim 1, wherein the stray remover comprises: buffer means for amplifying and outputting a demodulated signal of the color demodulation / deflection processing unit; When the power is turned off, a signal corresponding to the demodulation signal RGB is applied by driving the standby power supply B1 of the power supply unit to the output terminal of the buffer means by driving according to the control signal CST of the microcomputer. B) The stray removing device of the TV receiver, characterized in that configured as a switching means for outputting. A microcomputer that collectively controls the system; A power supply unit for supplying powers B1-B3 and B + suitable for the system according to the control signal PTL of the microcomputer; A delay unit for delaying and outputting the deflection power B2 from the power supply unit for a predetermined time; A color demodulation power B3 is input from the power supply unit and a deflection power B2 delayed by a predetermined time is driven through the delay unit to demodulate a carrier color signal inputted through a series of processing to output a demodulation signal RGB. And a color demodulation / deflection processing unit for outputting a deflection driving signal (VD, HD); A city driving unit for amplifying and outputting an output signal (R.G.B) of the color demodulation / deflection processing unit; A Citi for receiving the output signal (-R.-G.-B) of the Citi Drive unit to reproduce a color image; A deflection unit configured to control a deflection by receiving a deflection driving signal VD from the color demodulation / deflection processing unit; The B + power is supplied from the power supply unit, and the output signal of the deflection unit generated during the return period is converted into a predetermined power supply, and is applied to the CFP drive unit as the power supply voltage B4. Spot removal apparatus of the TV receiver, characterized in that consisting of a flyback transformer (FBT). A microcomputer that collectively controls the system, such as outputting a control signal for forcibly maintaining a demodulation signal when the power is turned off; A power supply unit supplying power suitable for the system according to a control signal of the microcomputer for forcibly maintaining the demodulation signal; A delay unit for delaying and outputting the deflection power from the power supply unit for a predetermined time; A color demodulation / deflection processing unit which receives a deflection power source and a color demodulation power source from the power supply unit and drives the demodulated signal to demodulate the output color signal and output a deflection drive signal; A stray removing unit for outputting a demodulation signal of the color demodulation / deflection processing unit when the power is on, and outputting a predetermined signal corresponding to the demodulation signal according to a control signal of the microcomputer when the power is off; A city driving unit for amplifying and outputting the output signal of the stray removing unit; A Citity for receiving an output signal of the Citidrive driver to reproduce a color image; A deflection unit configured to control a deflection by receiving a deflection driving signal from the color demodulation / deflection processing unit; A flyback that receives the B + power from the power supply unit, converts the output signal of the deflection unit generated during the return period into a predetermined power supply, applies the power supply voltage to the safety driving unit, and boosts the voltage to a high voltage at the same time. Stray and spot removal apparatus of the TV receiver, characterized in that consisting of a transformer.

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